The Operating Energy Rack for Full Electric Vehicles project (OPERA4FEV) is a European project under the 7th Framework Program of the European Commission. The project started in September 2011 for a total period of 54 months and aims to propose a cheap, light and versatile alternative solution to the present metal-based technology for power battery racks in electric vehicles. It also aims for a high level of function integration while taking crash and safety regulations into account in the mean time. It involves a consortium of 10 partners from 6 European countries and has a total budget of €7 millions.

Scope of the project

The OPERA4FEV project aims to develop thermoplastic battery racks based on Li-ion technology for two functional demonstrators: one for a large-scale vehicle (Iveco Daily, Fiat Group) and one for a “niche” car or city vehicle (Mia, Mia Electric). To improve the deployment of electrical vehicles in Europe, large-scale production processes for racks and electrical components need to be developed. OPERA4FEV aims at improving these manufacturing processes for benchmark battery racks in a more eco-friendly way. It targets obtaining a product with better integration characteristics as the current ones, with enhanced environmental competences. The currently used metals are being replaced by thermoplastics as a main component and all the parts involved in the rack (cooling system, printed circuit boards…) are being redesigned.

In order to show the relevance of the solution and meet strong industrial benefits, the OPERA4FEV thermoplastic racks will be manufactured and assembled with industrial means. The OPERA4FEV project aims to achieve full thermoplastics battery racks that integrates electrical and hydraulic connections and adaptable to any full electric vehicle model, with a strong focus on (crash) safety requirements. Manufacturing processes from the production of the cells itself up to large-scale system are considered. Plastic materials form a key element of this project and several grades of plastic will be used in the rack depending of their core function, encompassing strength, insulation and flame retardation. During the development process, the project takes into account the availability of critical materials and dismantling/recycling methodologies. This will lead to a complete eco-designed solution, able to be proposed at large scale. In addition, OPERA4FEV concept is fully in line with the European end of life vehicle directive stating that by 2015, vehicles must be constructed of 95% recyclable materials, with 85% recoverable through reuse or mechanical recycling and 10% through energy recovery or thermal recycling, the use of “green” composites is expected to greatly increase and prevail in the future vehicle components’ development. The impact of the newly developed rack technology on the environment is being assessed by means of a Life Cycle Assessment (LCA). Finally, the whole value chain for power battery rack is being addressed, including the eco-design (dismantling and recycling of critical materials), assembly and integration of cells and electric components.

Objectives of the project

Summarized, the main OPERA4FEV aims to achieve the following goals:

Integration of battery cells in thermo plastic battery pack

Integration of electric and hydraulic as well as component fittings

Reduction of assembly time and fast connections of cells in factory

25% cost reduction on components (cells excluded)

30% weight reduction on components (cells excluded)

50% reduction of number of components

Better and easier maintenance

Eco-friendly design - Easier end of life dismantling

Guaranty safety/crash behaviour

Improve thermal regulation,

Use of recycled polymers (70% in weight)

Adaptable design to automotive industry

High production rate in powertrain factory

Currently a complete integrated polymer-based and manufacturing-ready ECO-design of the battery pack, including Battery Management System and cooling system, has been carried out. All materials and components have been selected, including battery cells, quick connectors, electric components and reinforced polymer materials. An LCA study has been carried out and crash simulations have been performed. Dedicated test benches for the battery packs have been developed, production tools are near to realization, and pilot production racks will be made on very short term. These pilot racks will be thoroughly assessed by means of bench-, crash- and in vehicle testing.

Partners

MECAPLAST Group (France and Monaco) is the coordinator. Worldwide Automotive tier one supplier of plastic parts.

CENTRO RICERCHE FIAT (Italy), development and transfer of innovative content and car maker. In charge of the vehicle supply, assembly in the vehicle and tests on road conditions

CETHIL (France) research laboratory in thermal science and energy engineering In charge of the cooling dimensioning, cells characterization and thermal tests.